The NXP PCF7952ATT/M1CC15 is a state-of-the-art integrated circuit designed for use in a wide variety of applications within the automotive industry. This versatile chip is part of NXP's renowned product line, which is well-known for its reliability, performance, and innovation. The PCF7952ATT/M1CC15 is particularly suited for use in remote keyless entry (RKE) systems, providing secure access and convenience for vehicle owners.

Key Features

• Security: The chip is equipped with advanced cryptographic algorithms to ensure the highest level of security for vehicle access. It supports the HITAG 2 protocol, which provides robust encryption and mutual authentication between the key fob and the vehicle's receiver.
• Frequency: It operates in the 315MHz and 433MHz frequency bands, which are commonly used for automotive RKE systems, offering flexibility for global applications.
• Low Power Consumption: The PCF7952ATT/M1CC15 is designed for low power consumption, extending the battery life of the key fob and reducing the need for frequent battery replacements.
• Package: This IC comes in a small, leadless HVQFN package with 32 terminals, which allows for a compact design of the end product, making it ideal for integration into modern key fobs with limited space.

Applications

The NXP PCF7952ATT/M1CC15 is primarily used in RKE systems, but its versatility allows it to be applied in other related systems such as:

• Passive Keyless Entry (PKE)
• Immobilizers
• Remote Start Systems

Why Choose NXP PCF7952ATT/M1CC15?

Choosing the NXP PCF7952ATT/M1CC15 for your automotive security needs means investing in a product that offers excellent performance, enhanced security, and long-term reliability. NXP's commitment to innovation ensures that their products remain at the forefront of the industry, providing cutting-edge solutions for today's automotive challenges. With its robust feature set and versatile applications, the PCF7952ATT/M1CC15 is an excellent choice for manufacturers looking to incorporate reliable and secure RKE systems into their vehicles.